Scintillation properties of transparent Lu‐α‐SiAlON:Ce 3+ ceramics
The high durability under harsh environment including high temperature, high humidity, and high radiation is required for scintillators used for decommissioning of nuclear facilities and radiation monitoring in nuclear fusion reactors. α‐SiAlON ceramics are highly potential for such scintillators be...
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| Veröffentlicht in: | International journal of applied ceramic technology 2024-07, Vol.21 (4), p.2671-2677 |
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| container_title | International journal of applied ceramic technology |
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| creator | Aminaka, Kohei Tatami, Junichi Iijima, Motoyuki Ito, Akihiko Matsumoto, Shogen Takahashi, Takuma Ohji, Tatsuki |
| description | The high durability under harsh environment including high temperature, high humidity, and high radiation is required for scintillators used for decommissioning of nuclear facilities and radiation monitoring in nuclear fusion reactors. α‐SiAlON ceramics are highly potential for such scintillators because of their thermal and mechanical durability and luminescence corresponding to doped rare‐earth ion. In this study, scintillation properties of transparent Lu‐α‐SiAlON:Ce 3+ ceramics were investigated for the first time. Lu‐α‐SiAlON:Ce 3+ showed the scintillation responses to α‐rays and X‐rays. The α‐rays‐induced scintillation decay curve consists of two components whose decay time are 48 and 652 ns. The faster decay component most presumably results from 4f‐5d transition of Ce 3+ , whereas the origin of the slower one is unclear but may be defects in α‐SiAlON. The light yield of the Lu‐α‐SiAlON:Ce 3+ ceramics was 1300 photons 5.5 MeV −1 . |
| doi_str_mv | 10.1111/ijac.14758 |
| format | Article |
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In this study, scintillation properties of transparent Lu‐α‐SiAlON:Ce 3+ ceramics were investigated for the first time. Lu‐α‐SiAlON:Ce 3+ showed the scintillation responses to α‐rays and X‐rays. The α‐rays‐induced scintillation decay curve consists of two components whose decay time are 48 and 652 ns. The faster decay component most presumably results from 4f‐5d transition of Ce 3+ , whereas the origin of the slower one is unclear but may be defects in α‐SiAlON. 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In this study, scintillation properties of transparent Lu‐α‐SiAlON:Ce 3+ ceramics were investigated for the first time. Lu‐α‐SiAlON:Ce 3+ showed the scintillation responses to α‐rays and X‐rays. The α‐rays‐induced scintillation decay curve consists of two components whose decay time are 48 and 652 ns. The faster decay component most presumably results from 4f‐5d transition of Ce 3+ , whereas the origin of the slower one is unclear but may be defects in α‐SiAlON. 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| source | Wiley Online Library Journals Frontfile Complete |
| title | Scintillation properties of transparent Lu‐α‐SiAlON:Ce 3+ ceramics |
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